Electric potential energy to kinetic energy

AI Thread Summary
The discussion revolves around a physics homework problem involving electric potential energy and kinetic energy. In part A, the voltage difference between two points in an electric field was calculated as 12,000 V after doing 12 J of work to move a charge of 0.001 C. Part B asks for the kinetic energy of the charge when released, with participants noting that electric fields are conservative, suggesting that the energy is conserved. The consensus is that the kinetic energy when the charge returns to point A will also be 12 J, aligning with the conservation of energy principle. Overall, the discussion emphasizes understanding the relationship between work done, electric potential, and kinetic energy in conservative fields.
cerberus9
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Homework Statement


There were two parts to this problem

a) if you do 12 J of work to push 0.001 C of charge from point A to point B in an electric field, what is the voltage difference between A and B?

I already solved this part, I got \DeltaV=12,000 V


b) When the charge is released, what will be its kinetic energy as it flies back past its starting point A? What principle guides your answer?

Here i have absolutely no idea what to do.

Homework Equations



\DeltaV=W/q

\DeltaV=\DeltaPEelectric/q


The Attempt at a Solution



I've gotten through part A but i have no idea how to approach part B.
 
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I think Electric fields are conservative, so if you do work against it, then hold your charge and then release it, then it will gain the same energy going back out ... so would it be 12J at point A?

:/ I try to help
 
Villhelm said:
I think Electric fields are conservative, so if you do work against it, then hold your charge and then release it, then it will gain the same energy going back out ... so would it be 12J at point A?

:/ I try to help

how did you get 12 J?
 
cerberus9 said:
how did you get 12 J?

You said 12J above as the work done in moving the charge, which I think is conserved when it comes back out. That's how I understand it, maybe I'm missing something ... it happens :frown:
 
Villhelm said:
You said 12J above as the work done in moving the charge, which I think is conserved when it comes back out. That's how I understand it, maybe I'm missing something ... it happens :frown:

haha no, don't be upset, you're right. that's the answer in the back of the book. I'm just totally lost as to how to get to it.
 
cerberus9 said:
haha no, don't be upset, you're right. that's the answer in the back of the book. I'm just totally lost as to how to get to it.

Use the work-energy theorem and the conservation of energy.
 
I think it just comes about because electric fields are "conservative" fields ... like in ballistics questions, the ball goes up with V and comes down with -V ... because gravity is conservative too. So, the KE into the ball is spent moving upwards, but it gains the same coming back down.
 
Villhelm said:
I think it just comes about because electric fields are "conservative" fields ... like in ballistics questions, the ball goes up with V and comes down with -V ... because gravity is conservative too. So, the KE into the ball is spent moving upwards, but it gains the same coming back down.

thanks a bunch :biggrin:
 

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